All tasks in a block inherit directives applied at the block level. Most of what you can apply to a single task (with the exception of loops) can be applied at the block level, so blocks make it much easier to set data or directives common to the tasks. The directive does not affect the block itself, it is only inherited by the tasks enclosed by a block. For example, a `when` statement is applied to the tasks within a block, not to the block itself.
In the example above, the 'when' condition will be evaluated before Ansible runs each of the three tasks in the block. All three tasks also inherit the privilege escalation directives, running as the root user. Finally, ``ignore_errors: yes`` ensures that Ansible continues to execute the playbook even if some of the tasks fail.
Names for blocks have been available since Ansible 2.3. We recommend using names in all tasks, within blocks or elsewhere, for better visibility into the tasks being executed when you run the playbook.
You can control how Ansible responds to task errors using blocks with ``rescue`` and ``always`` sections.
Rescue blocks specify tasks to run when an earlier task in a block fails. This approach is similar to exception handling in many programming languages. Ansible only runs rescue blocks after a task returns a 'failed' state. Bad task definitions and unreachable hosts will not trigger the rescue block.
The tasks in the ``block`` execute normally. If any tasks in the block return ``failed``, the ``rescue`` section executes tasks to recover from the error. The ``always`` section runs regardless of the results of the ``block`` and ``rescue`` sections.
If an error occurs in the block and the rescue task succeeds, Ansible reverts the failed status of the original task for the run and continues to run the play as if the original task had succeeded. The rescued task is considered successful, and does not not trigger ``max_fail_percentage`` or ``any_errors_fatal`` configurations. However, Ansible still reports a failure in the playbook statistics.